Yes, the gravitational force exerted by the Sun is much greater than that of the Earth. The Sun's mass is significantly larger than the Earth's, resulting in a stronger gravitational pull. This gravitational force is what keeps the planets in orbit around the Sun.
The gravitational force between two objects depends on their masses and distance apart. The Sun has a much larger mass than you, so it exerts a stronger gravitational force on Earth due to its greater mass. However, because you are much closer to Earth than to the Sun, the gravitational force between you and the Earth is stronger than the force between you and the Sun.
The gravitational force is 'mutual' ... both of the bodies involved experience equal forces toward the other.In the gravitational attraction between the earth and you, the earth is attracted toward you with a forceequal to your weight.If the earth and moon were five times as far apart as they are today, the force on each toward the otherwould decrease to (1/52) = (1/25th) = 4% of what it is today.
The gravitational force is set by the mass but also by how far away you are.
The gravitational force from a planet on the sun is so small. For example, 1,000,000 Earths can fit in the sun. The mass of the sun is 333,000 times bigger than the Earth. It is the same way you on Earth. You have a gravitational force on the Earth but it is so small.
Yes, the gravitational force exerted by the Sun is much greater than that of the Earth. The Sun's mass is significantly larger than the Earth's, resulting in a stronger gravitational pull. This gravitational force is what keeps the planets in orbit around the Sun.
The gravitational force between two objects depends on their masses and distance apart. The Sun has a much larger mass than you, so it exerts a stronger gravitational force on Earth due to its greater mass. However, because you are much closer to Earth than to the Sun, the gravitational force between you and the Earth is stronger than the force between you and the Sun.
The gravitational force of Jupiter is thought to be 24.79 m/s2. That is 2.5 times the gravitational pull of Earth.
Jupiter has a stronger pull than Earth due to its larger mass, resulting in a higher gravitational force. The gravitational force between two objects is directly proportional to their masses, so Jupiter's greater mass leads to a stronger pull compared to Earth.
It isn't. It is 0.38 times that of the earth.
The gravitational force is 'mutual' ... both of the bodies involved experience equal forces toward the other.In the gravitational attraction between the earth and you, the earth is attracted toward you with a forceequal to your weight.If the earth and moon were five times as far apart as they are today, the force on each toward the otherwould decrease to (1/52) = (1/25th) = 4% of what it is today.
The gravitational force is set by the mass but also by how far away you are.
The gravitational force would be 1/25 of the current value. Gravitational force is inversely proportional to the square of the distance.
The gravitational force from a planet on the sun is so small. For example, 1,000,000 Earths can fit in the sun. The mass of the sun is 333,000 times bigger than the Earth. It is the same way you on Earth. You have a gravitational force on the Earth but it is so small.
The gravitaional forces on Jupiter are greater than here on Earth, so the force on your body is greater. This increases your weight. Your mass remains the same though. Force(or weight) = mass * acceleration. Acceleration is gravitational constant. On earth it is 9.81 m/s2. On Jupiter it is 24.79 m/s, or about 2.5 times that of earth..
It will be 4 times as great
about 330,000 times stronger